Abstract: A locationing system for use in a wireless network generally includes a wireless switch and a global positioning system (GPS) located proximate to or integrated into the wireless switch such that it communicates GPS data to the wireless switch. At least one access port (AP) is coupled to the wireless switch. At least one RFID reader (mobile and/or fixed) is configured to communicate with the access port, and the RFID reader is configured to read an RFID tag and communicate RFID tag data to the wireless switch. The wireless switch is configured to determine the location of the RFID tag utilizing the GPS data and the RFID tag data.

Abstract: A system for reading product indicia includes a mobile computing headset and a wearable data-capture accessory. The mobile computing headset preferably includes a removable processing module shaped and sized to be attachable to the wearable data-capture accessory and one or more communication modules to communicate information between the data-capture accessory and existing infrastructure devices. The data-capture accessory includes a product indicia reader and a communication module for transmitting information to and from the mobile headset.

Abstract: Techniques are provided for configuring wireless switches within a mobility domain. In one implementation, a first designated wireless switch and a first client wireless switch are configured as part of a first mobility area of the mobility domain. An internal peering session is established between the first client wireless switch and the first designated wireless switch in the first mobility area. A second designated wireless switch is configured as part of a second mobility area of the mobility domain, and an external peering session is established between the first designated wireless switch in the first mobility area and the second designated wireless switch in the second mobility area.

Abstract: The invention relates to a scanner with an embedded voice/data communication system. The embedded communication system enables data to obtained remotely, and transferred to the scanner. The scanner includes a multiplexing component that can enables data received via the communication component to be handled as though it were obtained with the scanner. In addition, the communication system enables paging/calling of remote devices.

Abstract: A wireless data communication system has a first station or mobile unit is linked to a second station configured as an access unit to support packet communication, voice or data, where the voice packets are transmitted in the Continuously Aware Mode (CAM) mode while other packets are buffered by the access point and held until asked for by the first station when in a Power Saving-Poll (PSP) mode. A monitoring apparatus at the access point monitors all transmitted packets and sorts the packets to the mobile unit according to CAM or PSP mode. Voice packets are sent out immediately to the mobile unit. Other packets are stored at the access point. The packet arrival rate may vary during transmission and due to random packet delays introduced by propagation characteristic and processing apparatus. The packet arrival rate and delays are taken into account by the first station in an algorithm to determine and extend the normal safe period in which the station receiver may be powered off.

Abstract: A multicamera imaging-based bar code reader wherein for least one camera assembly of the reader, a sensor array of the camera assembly is non-orthogonal with respect to an optical axis of an imaging lens assembly of the camera assembly such that an imaging or scanning volume of the camera assembly more closely conforms to a desired imaging field or region of the reader. In one exemplary embodiment the reader features: a housing supporting first and second transparent presentation windows and defining an interior region; an imaging system including a plurality of camera assemblies within the interior region, at least one camera assembly includes a sensor array and an imaging lens assembly, the sensor array being positioned with respect to the imaging lens assembly at an angle so as to be non-orthogonal with respect to an optical axis of the imaging lens assembly of the camera assembly.

Abstract: A method (100) and laser scanning system (10) for reading indicia (18) comprises a laser diode (60) that projects a light beam (LB) along an optical axis of the laser scanning system toward target indicia and a photodetector (34) that receives light reflected from the target indicia during operation of the laser scanning system. The system further comprises an auto-focusing arrangement (64) having a micro-electromechanical device (68) moveably coupled to a focusing lens (66) such that activation of the micro-electromechanical device provides controlled movement of the focusing lens along the optical axis relative to the laser scanning system, altering the profile of the light beam projected from the laser diode upon the target indicia.

Abstract: A method utilizing an imaging-based bar code reader to identify a desired acquisition area within a captured image frame, the desired acquisition area including a target bar code and an extent of the desired acquisition area bounded by a border featuring: identifying a region of the captured image frame corresponding to an image of the target bar code; determining a reference point within the imaged target bar code; determining a reference point within an image of the desired acquisition area; searching for an image of the border of the desired acquisition area; identifying the imaged border of the desired acquisition area; and saving in memory a portion of the captured image frame corresponding to an image within the imaged border.

Abstract: The exemplary system requires a 2D barcode be located on an object, a portion of which is to be captured in an image. The module size of the 2D barcode is chosen to match the smallest feature to be preserved on the output image. While the target is moving with respect to the imager the 2D bar code is also moving and the resulting image is degraded. The imager will properly decode the 2D barcode only if the bar code is stationary (or moving very slowly) and hence will provide an acceptable image in the region of the 2D bar code.

Abstract: A programmable controller and software that monitors periods an RF transmitter is active and a output power level during those periods of activity. These two values are multiplied together and accumulated over time to provide a value for the RF emissions for some period. A limit is set for the RF emissions for any period and if the RF emissions exceeds (or is expected to exceed given the current rate) the set limit, the system limits the subsequent emissions to not exceed the set limit. This reduction in emissions rate come at the cost of a small performance reduction.

Abstract: An imaging system (10) and method (200) for reading residential and/or commercial meters. The system and method comprise a transmission element (12) that attaches to an external location of a meter (24). The transmission element (12) selectively communicates a reading signal (40) corresponding to a meter value. The system and method further comprise an imaging unit (14) located within the transmission element (12) that images the meter value at a prescribed frequency. The system and method also comprise a transceiving arrangement (16) that receives the reading signal (40) communication from the transmission element. The transceiving arrangement (16) also comprises a converter (44) that analyzes and converts the reading signal (40) communication to a use signal (46).

Abstract: An imaging optical code reader is adapted for use in producing video displays and for use in motion detection surveillance using video compression and narrow band width communication links. An optical system including a plane parallel plate may be employed to change the system focal distance.

Abstract: Methods, systems, and devices for facilitating pass-through USB connectivity are provided. A computing device engages with an accessory device such that the computing device connects to a corresponding USB engine in the accessory device. A signal corresponding to an engagement of an external device to the accessory device is detected and a determination of whether to disconnect the computing device from the corresponding USB engine is made as a function of a set of logic operations upon detecting the signal. A USB connection between the computing device and the external device is established as a function of the set of logic operations such that the USB connection is only established if the computing device has been disconnected from the accessory device.

Abstract: Described are a system and a method for anti-counterfeit barcode labels. The system may include an automatic identification symbol reader obtaining item data and a first spectral signature data; a spectral signature reader obtaining a second spectral signature data from a spectral signature; and a processor for decoding and validating a automatic identification symbol as a function of a comparison of the first spectral signature data and the second spectral signature data.

Abstract: Methods, systems, and apparatuses for antenna designs for radio frequency identification (RFID) tags are described.

Abstract: The present invention provides methods and apparatuses for demodulation and decoding of backscattered 16-QAM RFID tag signals, represented by their in-phase and quadrature components at the output of the demodulator in the receiver portion of a reader interrogator. In a communication channel with fast changing parameters, a reader receiver adaptively and coherently corrects the in-phase and quadrature-phase components of a signal received from a tag by tracking the phase and amplitude of the signal based on a decision-feedback. A reference signal is used to correct the signal components, where the coordinates of the reference signal is updated by a tracking and an averaging algorithm. A simple implementation of the receiver in a digital signal processing environment is enabled.

Abstract: A method, system, and apparatus for interrogating a radio frequency identification (RFID) tag population are described. Tags are interrogated by a reader. The reader and tags engage in communication according to communications algorithms, where data symbols are exchanged between the reader and tags. Furthermore, a reader implicitly controls the operating state of every tag in the tag population by transmitting a single data symbol. Bit patterns may be collected from the tags by the reader, using a variety of interrogation techniques. In a general interrogation, the reader exchanges symbols with the tag population to interrogate the entire tag population. In a specific interrogation, a reader exchanges symbols with the tag population to target a particular tag identification number. Tags may also be placed in a superposition state by the reader, where they respond whenever a received data symbol matches the next bit of their identification number.

Abstract: Embedded devices in a data communications network are arranged to formulate XML data messages containing data representing the operation of the embedded device. The software in the embedded device acts as a server that can be accessed over the network by a browser program in a computer to monitor device operation. The browser program can formulate XML command messages which are sent over the network to the embedded device to control its operation.

Abstract: A system and method are provided for visually building multi-channel and multi-modal applications. The system includes a process design module for designing application workflow, an integration design module for integrating data sources into the application; a presentation design module for designing application views; a media library; and a componentization module, for packaging designed workflow into reusable components. The system further includes an interactive development/design environment (IDE). The IDE provides a graphical user interface for allowing a developer to visually interact with and operate modules. The system allows a developer to design a single application that can operate across multiple network standards, devices, browsers and languages, and that operate in one or more modes, such as real-time, off-line and asynchronous modes.